2,2′-Diphosphino- and 2,2′-Diarsenotolanes and Their Fe-, Co-, and Ni-Complexes: Pnictogen-Dependent Cyclization Tendencies and Metal-Dependent Stability and Reactivity Patterns

Rudin, Benjamin; Eberle, Lukas; Ballmann, Joachim

doi:10.1021/acs.organomet.3c00107

Cited by 5 publications

(3 citation statements)

References 90 publications

(42 reference statements)

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“…In view of the high price of rhenium and severe issues upon scale-up to amounts of >200 mg, a strategy to circumvent ligand cyclization was considered mandatory and the recently reported arsa -ligand derivative ( 1-As ) was taken into consideration, which requires a more detailed explanation and a closer look at the former cyclization products: These undesirable species are formed via twofold nucleophilic attack at the alkyne unit, thus generating a diylide, which is known to readily decompose in CH 2 Cl 2 to give rise to the observed cationic oxidation products . Given that the formation of As-ylides is considerably less favorable (in comparison to P-ylides), similar ligand cyclization pathways are hampered substantially for 1-As and thus not even observed at elevated temperatures . Using this thermally robust and less air-sensitive ligand derivative, the corresponding pincer complex 2-As was prepared in excellent yields of 95% and isolated in gram quantities (see Scheme ).…”

Section: Resultsmentioning

confidence: 99%

[AsCCAs]-Coordinated Rhenium Hydrides and Their Reactivities Toward Unsaturated Hydrocarbons, Heterocumulenes, and CO₂

et al. 2023

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An [AsCCAs] ligand featuring a central alkyne and two flanking arsenic donors was employed for the synthesis of a trihydrido rhenium complex, while the corresponding phosphorus ligand was shown to be less suited. The reactivity of the former trihydride [AsCCAs]ReH 3 (3) was examined in detail, which revealed that two alternative reaction channels may be entered in dependence of the substrate. Upon reaction of 3 with PhC�CPh, ethylene, and CS 2 , monohydrides of the general formula [AsCCAs]Re(L)H with L = η 2 -PhC�CPh (4), η 2 -H 2 C�CH 2 (5), and η 2 -CS 2 (6) were formed along with H 2 . In contrast, insertion products of the type [AsCCAs]Re(X)H 2 (7−9) were obtained upon treatment of 3 with CyN�C�NCy, PhN�C�O, and Ph 2 C�C�O, while CO 2 failed to react with 3 under identical reaction conditions. Given that several productive reactions between CO 2 and hydrido rhenium carbonyls have been reported in the literature, 3 was further derivatized by introducing CO and t BuNC coligands, respectively. This led to the isolation of trans-[AsCCAs]ReH(CO) 2 (trans-10) and trans-[AsCCAs]ReH(CN t Bu) 2 (trans-11), which were shown to thermally isomerize to the corresponding cis-configured products, cis-10 and cis-11. Interestingly, only the cis-complexes were found to react with CO 2 , which was rationalized by evaluating the relative nucleophilicities of the hydrides in cis-10, trans-10, cis-11, and trans-11 via Fukui analysis. The formates cis-[AsCCAs]Re(OCHO)(CO) 2 (12) and cis-[AsCCAs]Re(OCHO)(CN t Bu) 2 (13) were isolated and shown to contain κ 1 -O-coordinated formate moieties. Treatment of 12 with [LutH]Cl/B(C 6 F 5 ) 3 (or with Ph 3 SiCl) led to the liberation of [LutH][OCHO•••B(C 6 F 5 ) 3 ] (or triphenylsilyl formate) with concomitant formation of the expected chloro complex cis-[AsCCAs]ReCl(CO) 2 ( 14). In a closed synthetic cycle, hydride 12 was regenerated from the latter chloride using NaBEt 3 H as a hydride source.

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Section: Resultsmentioning

confidence: 99%

[AsCCAs]-Coordinated Rhenium Hydrides and Their Reactivities Toward Unsaturated Hydrocarbons, Heterocumulenes, and CO₂

et al. 2023

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“…Disappointingly, these efforts met with failure (W) and limited success (Re) 18 given that heating is required for the complexation of these kinetically inert 5d-metals, which inevitably leads to the formation of 4 (see Scheme 1). The arsa-derivative of the ligand (1-As), however, was shown to resist thermal cyclization reactions, 19 which prompted us evaluate whether tungsten and rhenium complexes of 1-As may be prepared and exploited for the activation of N 2 .…”

Section: ■ Introductionmentioning

confidence: 99%

“…Disappointingly, these efforts met with failure (W) and limited success (Re) given that heating is required for the complexation of these kinetically inert 5d-metals, which inevitably leads to the formation of 4 (see Scheme ). The arsa -derivative of the ligand ( 1-As ), however, was shown to resist thermal cyclization reactions, which prompted us evaluate whether tungsten and rhenium complexes of 1-As may be prepared and exploited for the activation of N 2 . Considering the crucial role of molybdenum in the context of N 2 activation ( vide supra ), it seemed reasonable to include molybdenum in our studies and, thus, elucidate whether arsa -analogs of 2-P and 3-P may be prepared.…”

Section: Introductionmentioning

confidence: 99%

To Split or Not to Split: [AsCCAs]-Coordinated Mo, W, and Re Complexes and Their Reactivity toward Molecular Dinitrogen

Eberle,

Lindenthal,

Ballmann

2024

Inorg. Chem.

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Molybdenum, tungsten, and rhenium halides bearing a 2,2′-( i Pr 2 As) 2 -substituted diphenylacetylene ([AsCCAs], 1-As) were prepared and reduced under an atmosphere of dinitrogen in order to activate the latter substrate. In the case of molybdenum, a diiodo (2-As) and a triiodo molybdenum precursor (5) were equally suited for reductive N 2 splitting, which led to the isolation of [AsCCAs]Mo�N(I) (3-As) in each case. For tungsten, [AsCCAs]-WCl 3 (6) was reduced under N 2 to afford {[AsCCAs]WCl 2 } 2 (N 2 ) (7), which is best described as a dinuclear π 8 δ 4 -configured μ-(η 1 : η 1 )-N 2 -bridged dimer. Attempts to reductively cleave the N 2 unit in 7 did not lead to the expected tungsten nitride (8), which had to be prepared independently via the treatment of 7 with sodium azide. To arrive at a π 10 δ 4 -configured N 2 -bridged dimer in a tetragonally distorted ligand environment, [AsCCAs]ReCl 3 (9) was reduced in the presence of N 2 . As expected, a μ-(η 1 : η 1 )-N 2 -bridged dirhenium species, namely, {[AsCCAs]ReCl 2 } 2 (N 2 ) (10), was formed, but found to very quickly decompose (presumably via loss of N 2 ), not only under reduced pressure, but also upon irradiation or heating. Hence, an alternative synthetic route to the originally envisioned nitride, [AsCCAs]Re�N(Cl) 2 (11), was developed. While all the aforementioned nitrides (3-As, 8, and 11) were found to be fairly robust, significantly different stabilities were noticed for {[AsCCAs]MCl 2 } 2 (N 2 ) (7 for M = W, 10 for M = Re), which is ascribed to the electronically different MN 2 M cores (π 8 δ 4 for 7 vs π 10 δ 4 for 10) in these μ-(η 1 : η 1 )-N 2 -bridged dimers.

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Pnictogens: Bridging the Gap in Biomedical Advancements

Manoj,

Cible,

Sneha

et al. 2024

Nanomaterials for Biomedical and Bioengineering Applications

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2,2′-Diphosphino- and 2,2′-Diarsenotolanes and Their Fe-, Co-, and Ni-Complexes: Pnictogen-Dependent Cyclization Tendencies and Metal-Dependent Stability and Reactivity Patterns

Cited by 5 publications

References 90 publications

[AsCCAs]-Coordinated Rhenium Hydrides and Their Reactivities Toward Unsaturated Hydrocarbons, Heterocumulenes, and CO₂

[AsCCAs]-Coordinated Rhenium Hydrides and Their Reactivities Toward Unsaturated Hydrocarbons, Heterocumulenes, and CO₂

To Split or Not to Split: [AsCCAs]-Coordinated Mo, W, and Re Complexes and Their Reactivity toward Molecular Dinitrogen

Pnictogens: Bridging the Gap in Biomedical Advancements

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2,2′-Diphosphino- and 2,2′-Diarsenotolanes and Their Fe-, Co-, and Ni-Complexes: Pnictogen-Dependent Cyclization Tendencies and Metal-Dependent Stability and Reactivity Patterns

Cited by 5 publications

References 90 publications

[AsCCAs]-Coordinated Rhenium Hydrides and Their Reactivities Toward Unsaturated Hydrocarbons, Heterocumulenes, and CO2

[AsCCAs]-Coordinated Rhenium Hydrides and Their Reactivities Toward Unsaturated Hydrocarbons, Heterocumulenes, and CO2

To Split or Not to Split: [AsCCAs]-Coordinated Mo, W, and Re Complexes and Their Reactivity toward Molecular Dinitrogen

Pnictogens: Bridging the Gap in Biomedical Advancements

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[AsCCAs]-Coordinated Rhenium Hydrides and Their Reactivities Toward Unsaturated Hydrocarbons, Heterocumulenes, and CO₂

[AsCCAs]-Coordinated Rhenium Hydrides and Their Reactivities Toward Unsaturated Hydrocarbons, Heterocumulenes, and CO₂